Litcius/Paper detail

Analytically articulating the effect of buffer size on urban green space exposure measures

Yang Liu, Mei‐Po Kwan, Jianying Wang

2024International Journal of Geographical Information Systems35 citationsDOIOpen Access PDF

Abstract

Advanced techniques in Geographic Information Systems (GIS) currently provide one of the most promising approaches to investigating the health impacts of green space. The GIS solution of deriving causally relevant green space exposures still faces challenges from the arbitrary determination of the contextual unit size. This paper presents an in-depth and rigorously defined analytical framework to illustrate the effect of buffer and to find the optimal buffer radius. We employed a cross-sectional study with 980 participants in Hong Kong to validate our analytics. The home locations, socio-demographic attributes, and self-reported health statuses were collected from questionnaires. Residence-based green space exposures were derived using an exhaustive range of buffer radii and fine-grained remote sensing data. Participants’ overall health was modeled through logistic regression to validate our analytics. Our results clearly indicate the U-shaped p-value curves along the gradient of buffer radii, which illustrates the optimal buffer sizes in pertinent geographic contexts. We also observed two independent ranges of optimal buffer sizes. Our work elicited the effect of buffer size on green space exposure measures and essential implications for a range of health geography and environmental health studies that require accurate green space exposure measures.

Topics & Concepts

Urban green spaceSpace (punctuation)Buffer zoneBuffer (optical fiber)GeographyEconometricsStatisticsComputer scienceEnvironmental planningMathematicsArchaeologyOperating systemTelecommunicationsUrban Green Space and HealthUrban Heat Island MitigationLand Use and Ecosystem Services